房屋建筑钢结构设计(普通高等教育十四五规划教材)(英文版)

本教材《房屋建筑钢结 构设计》是《钢结构基本原 理》的后续部分，已有钢结 构基本知识的基础上，这本 教材将读者引向应用阶段， 掌握几类典型建筑钢结构的 设计方法并从中领会结构设 计的一般要求。本教材与规 范联系密切，向留学生介绍 中国主要钢结构设计规范（ 规程）的特点。本教材共六 章。第一章为平台钢结构。 第二章为轻型门式刚架结构 ，这是一种应用最广的建筑 钢结构，非常适合发展中国 家（我国从事外事基建的主 要地方），授课时应作为留 学生和中外合作双语授课班 重点做比较全面的论述和讲 解。第三章为中重型工业厂 房，其中的角钢屋架和吊车 梁的设计方法具有普遍性。 第四章为主要介绍了网架和 网壳结构。第五章为多高层 建筑钢结构。第六章为近年 来在管桁架和单层网壳结构 中广泛应用的钢管相贯节点 。

Introduction Chapter 1 Platform Steel Structures 1.1 Layout of platform steel structures 1.2 Paving panel design 1.2.1 Form and structural detail of the paving panels 1.2.2 Calculation of paving plates 1.2.3 Stiffeners of plate calculation 1.3 Platform beam design 1.3.1 Key points of platform beam design 1.3.2 Design and calculation of platform beam 1.4 Platform column design 1.4.1 Cross-section design 1.4.2 Calculation of the axial compression column with solid web 1.4.3 Lace-barred latticed columns and sewed slab latticed columns 1.5 Joint design 1.5.1 Primary beam to secondary beam joint 1.5.2 Primary beam to column joints 1.5.3 Column base joints 1.6 Design of steel stairs of the platform structures 1.6.1 Form and structural detail of steel stairs 1.6.2 Calculation of inclined stair Thinking questions Exercises Chapter 2 Design of Light Portal Frame Structures 2.1 Structure forms and structure layout 2.1.1 Structure forms 2.1.2 Geometric size of building 2.1.3 Structure layout 2.2 Loads and internal force combination 2.2.1 Loads 2.2.2 Combination of load effects 2.2.3 Internal force calculation 2.2.4 Deformation calculation 2.3 Design of columns and beams 2.3.1 Plate width-to-thickness ratio and web post-buckling strength 2.3.2 Section strength of beams and colurmns considering post-buckling strength 2.3.3 Overall stability of the variable section column of the portal frame 2.4 Design of purlin and wall beam 2.4.1 Purlin design 2.4.2 Wall beam design 2.5 Joints design 2.5.1 Design of column-beam joints and beam-to-beam splicing joints 2.5.2 Design of column base joints 2.5.3 Design of corbels 2.5.4 Connection structure of swinging column and inclined beam 2.6 Design of braces (supports) 2.7 Design of profiled steel sheet 2.7.1 Material and section forms of the profiled steel sheets 2.7.2 Loads and load combinations of the profiled steel sheets 2.7.3 Specifications for construction of the profiled steel sheets Thinking questions Exercises Chapter 3 Heavy Industrial Building 3.1 Overview of heavy industrial building 3.1.1 Application and structure features of heavy industrial building 3.1.2 Structure constitution of heavy industrial building 3.2 Structural layout of heavy industrial building 3.2.1 Column grid layout of heavy industrial building 3.2.2 Roof arrangement of heavy industrial building 3.2.3 Transverse frame of heavy industrial building 3.2.4 Frame column of heavy industrial building 3.2.5 Roof truss of heavy industrial building 3.2.6 Column bracing of heavy industrial building 3.2.7 Roof bracing of heavy industrial building 3.3 Principle of structure calculation of heavy industrial building 3.3.1 Load caleulation 3.3.2 Internal force calculation of rigid-jointed frame 3.3.3 Principle of internal force combination 3.4 Design of steel roof truss 3.4.1 Loads of roof truss 3.4.2 Internal force calculation and combination of roof truss 3.4.3 Effective length of members in roof truss 3.4.4 Section form of members in roof truss 3.4.5 Connection structure of roof truss 3.4.6 Section selection for roof truss members 3.4.7 Joints design 3.4.8 Introduction of roof truss construction drawing characteristics 3.4.9 Design example of steel roof truss 3.5 Crane girder design of heavy industrial building 3.5.1 Load and working performance of crane girder 3.5.2 Composition of crane girder system 3.5.3 Connections between crane girder and column 3.5.4 Cross-section checking calculation of crane beam Thinking questions Exercises Chapter 4 Design of Large-span Steel Roof Structures 4.1 Structural f